FGF receptors mediate cellular senescence in the cystic fibrosis airway epithelium
Molly Easter, Meghan June Hirsch, Elex Harris, Patrick Henry Howze IV, Emma Lea Matthews, Luke I. Jones, Seth Bollenbecker, Shia Vang, Daniel J. Tyrrell, Yan Y. Sanders, Susan E. Birket, Jarrod W. Barnes, Stefanie Krick
Molly Easter, Meghan June Hirsch, Elex Harris, Patrick Henry Howze IV, Emma Lea Matthews, Luke I. Jones, Seth Bollenbecker, Shia Vang, Daniel J. Tyrrell, Yan Y. Sanders, Susan E. Birket, Jarrod W. Barnes, Stefanie Krick
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Research Article Cell biology Pulmonology

FGF receptors mediate cellular senescence in the cystic fibrosis airway epithelium

Abstract

The number of adults living with cystic fibrosis (CF) has already increased significantly because of drastic improvements in life expectancy attributable to advances in treatment, including the development of highly effective modulator therapy. Chronic airway inflammation in CF contributes to morbidity and mortality, and aging processes like inflammaging and cell senescence influence CF pathology. Our results show that single-cell RNA sequencing data, human primary bronchial epithelial cells from non-CF and CF donors, a CF bronchial epithelial cell line, and Cftr-knockout (Cftr–/–) rats all demonstrated increased cell senescence markers in the CF bronchial epithelium. This was associated with upregulation of fibroblast growth factor receptors (FGFRs) and mitogen-activated protein kinase (MAPK) p38. Inhibition of FGFRs, specifically FGFR4 and to some extent FGFR1, attenuated cell senescence and improved mucociliary clearance, which was associated with MAPK p38 signaling. Mucociliary dysfunction could also be improved using a combination of senolytics in a CF ex vivo model. In summary, FGFR/MAPK p38 signaling contributes to cell senescence in CF airways, which is associated with impaired mucociliary clearance. Therefore, attenuation of cell senescence in the CF airways might be a future therapeutic strategy improving mucociliary dysfunction and lung disease in an aging population with CF.

Authors

Molly Easter, Meghan June Hirsch, Elex Harris, Patrick Henry Howze IV, Emma Lea Matthews, Luke I. Jones, Seth Bollenbecker, Shia Vang, Daniel J. Tyrrell, Yan Y. Sanders, Susan E. Birket, Jarrod W. Barnes, Stefanie Krick

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Figure 10

Treatment with dasatinib and quercetin significantly decreases cellular senescence and improves mucociliary clearance in the ex vivo Cftr–/– rat trachea model.

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Treatment with dasatinib and quercetin significantly decreases cellular ...
(A) Immunohistochemistry of Cdkn2a (p16) and Cdkn1a (p21) of Cftr–/– rat tracheae, which were treated with 100 nM dasatinib and 2 μM quercetin (D+Q) for 24 hours, compared with vehicle-treated Cftr–/– rat tracheae. Scale bar is 100 µm. (B) Representative µOCT images of the different Cftr–/– rat trachea groups (ep, epithelial layer; lp, lamina propria), including representative images to assess mucociliary transport (MCT). (C) Bar graphs showing quantification of all regions of interest from µOCT images for assessment of ASL, MCT, CBF, and PCL from the vehicle- and D+Q-treated groups. (D) mRNA levels of SASP markers (Il1b, Il6, and Cxcl2 [IL-8]) along with (E) senescence markers Cdkn2a (p16), Cdkn1a (p21), Bcl2, and Bcl2l1 (BCL-xL) from Cftr–/– rat tracheae ± D+Q. Statistical analysis was done using unpaired Student’s t test showing means ± SEM with *P < 0.05, **P < 0.01 with n = 3–4 rat tracheae per group.